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1)  carbonitriding at 700℃
700℃碳氮共渗
2)  Nitrocarburizing
氮碳共渗
1.
Research on Ti Catalytic salt bath Nitrocarburizing of W_(18)Cr_4V steel;
W_(18)Cr_4V钢钛催渗盐浴氮碳共渗工艺研究
2.
Effects of Ti catalysis salt bath nitrocarburizing on surface properties of H13 steel;
钛催渗盐浴氮碳共渗对H13表面性能的影响
3.
Influence of nitrocarburizing on microstructure and roughness of 4Cr10Si2Mo steel
氮碳共渗对4Cr10Si2Mo钢渗层组织和表面粗糙度的影响
3)  carbonitriding [,kɑ:bəu'naitraidiŋ]
碳氮共渗
1.
Effect of Pre-carbonitriding on Microstructure and Properties of Boronizing Layer;
碳氮共渗预处理对渗硼层组织性能的影响
2.
Liquid phase plasma electrolytic carburizing, nitriding,carbonitriding technique;
液相等离子体电解渗碳、渗氮及其碳氮共渗技术
3.
Study on the hydrogen embrittlement phenomena of carbonitriding tape gear;
合金渗碳钢锥齿轮碳氮共渗的氢脆现象研究
4)  carbonitriding [,kɑ:bəu'naitraidiŋ]
氮碳共渗
1.
Titanium catalysis carbonitriding technique of steel Cr12MoV;
Cr12MoV钢镀钛催渗氮碳共渗工艺研究
2.
Test study on carbonitriding technology process;
氮碳共渗工艺过程试验研究
3.
A study on the carbonitriding of 5Cr4Mo3SiMnVAl steel has been carried out.
通过对 5Cr4Mo3SiMnVAl钢进行氮碳共渗工艺的研究 ,分析了温度、时间、气体比例等对渗层组织、性能的影响 ,确定了最佳工艺参数 ,渗层的组织性能好 ,并在切边模上进行了生产试验 ,使用寿命是原工艺生产工件的 2倍 ,有很好的应用前景。
5)  nitro-carburizing
氮碳共渗
1.
Low temperature salt-bath nitro-carburizing process of 08Al steel was studied.
研究了08Al钢的低温盐浴氮碳共渗工艺,利用扫描电镜观察氮化后的断面显微组织,检测了化合物层的厚度和质量,利用显微硬度计检测渗层的显微硬度。
2.
The results showed that a composite chromized layer with good wear-resistance could be obtained on the surface of steel W18Cr4V by low temperature salt-bath chromizing after nitro-carburizing.
结果表明,W18Cr4V钢经氮碳共渗加低温盐浴渗铬复合处理可获得良好的渗铬层及优异的耐磨性。
3.
Replacing mild alloy steel carburizing and quenching with medium-carbon alloy steel nitro-carburizing after quenching and high temperature tempering to produce gear-planetary ring is able to control distortion during process and short the circle of heat treatment.
采用中碳合金钢调质后氮碳共渗的方法取代低碳合金钢渗碳淬火对内齿圈进行热处理,能较好地控制其在热处理过程中的畸变,缩短了热处理周期。
6)  carbon-nitrogen co-permeation
碳-氮共渗
补充资料:碳氮共渗
分子式:
分子量:
CAS号:

性质:在含有碳氢化合物、一氧化碳和氨气的气氛中,在高于共析钢或过共析钢的温度下,把碳和氮同时渗入钢件表面以增加其淬火后的表面硬度、耐磨性和疲劳强度的化学热处理工艺。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条